Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Streptokinase remains the most widely used agent worldwide, largely because it is the cheapest. Because of cost considerations when the incremental cost of the use of accelerated TPA exceeds $35,000 (US) per life year added, and because an iatrogenically induced stroke in a patient who is otherwise likely to have a good outcome is unacceptable, streptokinase may be used in patients with small to moderate-sized infarctions and those aged less than 60 years. Streptokinase is the agent of choice in patients who have an increased risk of stroke and may be used in patients presenting after 6 hours. Streptokinase also may have a role in patients with cardiogenic shock. Administration of accelerated TPA is the treatment of choice in patients at high risk such as those with large anterior infarctions, the elderly, and patients with bypass grafts, and it is an alternative to urokinase when streptokinase has been administered previously. The most important approach is to treat as many patients as early as possible with thrombolytic therapy regardless of which agent is used. Thrombolytic therapy still is widely underused. More lives will be saved, regardless of which thrombolytic drug is used, by encouraging patients to present early, improving on the "door-to-needle" time, and treating more patients with a therapy that can save thousands of lives worldwide.
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PMID:Selecting a thrombolytic agent. 758 72

To clarify the efficacy and limitations of the intra-arterial local infusion of a high-dose fibrinolytic agent for acute embolic stroke, we analyzed the results of 44 patients and compared them with those of 51 patients treated with intracarotid (18 patients) or intravenous (33 patients) infusion therapy. Ten megaunits of recombinant tissue plasminogen activator or 24 x 10(4) IU of urokinase were administered through a microcatheter placed into or proximal to an embolus for 20 minutes. When arterial recanalization was not achieved, a second or third infusion was performed. The rates of complete and partial recanalization just after the local infusion were 52 and 32%, respectively. They were high in middle cerebral and basilar artery occlusion and low in internal carotid artery occlusion (69, 78, and 20%, respectively). In our use, there was no difference between tissue plasminogen activator and urokinase in restoring blood flow. The mean time interval from onset to recanalization in patients with middle cerebral artery occlusion showing marked improvement was 4.8 hours, and it was 5.8 hours with basilar artery occlusion. The size of infarction was reduced, and the outcome was good in patients with complete recanalization achieved. The incidence of hemorrhagic infarction within 24 hours was 22%, and only one patient clinically deteriorated. In the intracarotid infusion group (20 x 10(4) IU of urokinase for 30 min), only two patients showed partial recanalization without clinical improvement. The incidence of hemorrhagic infarction was 28%. The outcome in this group and the intravenous infusion group (18 x 10(4) IU of urokinase a day for 1 wk) was poor compared with that in the local infusion group showing complete recanalization. This preliminary study appears to suggest that intra-arterial local fibrinolytic therapy could be a new strategy for acute embolic stroke.
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PMID:Fibrinolytic therapy for acute embolic stroke: intravenous, intracarotid, and intra-arterial local approaches. 773 3

Intracerebral hemorrhagic transformation is one of the most important complications of thrombolytic therapy for acute ischemic stroke. The relationship between changes in markers for the coagulation and fibrinolytic systems and occurrence of hemorrhagic transformation was determined after local intra-arterial thrombolytic therapy using urokinase (UK) (24 patients) or recombinant tissue plasminogen activator (t-PA) (10 patients) within 6 hours of onset. All 34 patients had no hypodensity areas on initial computed tomography scans. Plasma concentrations of fibrinogen-fibrin degradation products (FDP), fibrinogen, alpha 2-plasmin inhibitor (alpha 2-PI), plasmin-alpha 2 plasmin inhibitor complex (PIC), thrombin-antithrombin III complex (TAT), and D-dimer were measured. Hemorrhagic transformation occurred in seven patients (21%) with complete or partial recanalization; four in the UK group and three in the t-PA group. Doses of the thrombolytic agents did not correlate with the incidence of hemorrhagic transformation. The FDP levels in the hemorrhagic transformation group treated with UK significantly increased immediately and 1 hour after the therapy. The alpha 2-PI activities decreased and PIC levels increased in both the hemorrhagic transformation and the nonhemorrhagic groups after the therapy. The TAT levels in both groups tended to be higher than the normal range, but there was no significant difference from the pretreatment levels. The D-dimer levels in the hemorrhagic transformation group were higher than those in the nonhemorrhagic group at 24 hours after the therapy. Furthermore, the D-dimer levels were significantly higher in patients with complete recanalization compared with those with none or partial recanalization.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in coagulation and fibrinolytic system after local intra-arterial thrombolysis for acute ischemic stroke. 777 Jan 6

Thrombolysis with tissue plasminogen activator (tPA) and hypothermia are two potential treatment modalities for acute ischemic stroke. Many investigators are studying these modalities both in the laboratory and in clinical trials. Because these modalities each appear to show benefit in animal models, there is considerable interest in studying combined therapy with both thrombolysis and hypothermia. However, it is known that alterations in the coagulation system can occur with decreased body temperature. Clinicians have frequently observed bleeding problems when patients are subjected to hypothermia for a variety of reasons. Hypothermia induced coagulopathy has been attributed to a variety of factors. Hypothermia can cause platelet dysfunction, inhibition of clotting factors, increased fibrinolysis and endogenous production of a heparin-like factor. Groups who studied fibrinolysis and temperature, however, found the opposite to be the case. Clot lysis studies with streptokinase showed increased fibrinolysis at higher temperatures. Data by Mumme suggested that the peak fibrinolytic activity of streptokinase was at 40 degrees C, but at 43 degrees C fibrinolytic activity was decreased. Rijken et al studied plasminogen activation with tissue plasminogen activator (tPA), urokinase and streptokinase at extremely low temperatures. They found less plasminogen activation and fibrinogen degradation at 25 degrees C compared to 37 degrees C, but negligible differences at 10 degrees C, 0 degrees C and -8 degrees C. To our knowledge, there is no data studying the fibrinolytic activity of tissue plasminogen activator (tPA) at temperature ranges between 25-37 degrees C which is the range of temperatures used clinically for therapeutic purposes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thrombolysis with tissue plasminogen activator (tPA) is temperature dependent. 777 62

This is a case report of a 47-year-old man admitted with a 7-month history of disequilibrium, multiple reversible vertebrobasilar ischemic attacks, and one submaximal completed stroke in the left posterior inferior cerebellar artery distribution. Vertebrobasilar ischemic attacks continued despite anti-coagulation, and orthostatic symptomatology suggested a significant hemodynamic component contributing to the posterior circulation ischemia. Angiography confirmed bilateral high-grade stenoses of the intracranial vertebral arteries. A right intracranial vertebral artery endarterectomy was performed with electroencephalographic and somatosensory evoked potential monitoring and protection with barbiturate infusion. The arteriotomy was closed with a vein patch. Postoperatively, the endarterectomy site thrombosed. This thrombosis was completely reversed with 220,000 U of urokinase selectively infused intra-arterially at the site of thrombosis. This procedure was not complicated by hemorrhage or distal embolization. The vertebral artery was confirmed to be patent 24 hours and 7 days after the urokinase injection. The patient sustained a borderzone infarction in the right cerebellar hemisphere without neurological deficits and was discharged home well.
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PMID:Successful treatment of an acute thrombosis of an intracranial vertebral artery endarterectomy with urokinase. 783 54

Intra-carotid urokinase (UK) infusion in 20 patients with acute internal carotid artery (ICA) territorial ischemic stroke achieved immediate recanalization in 45% and the clinical outcome in patients with recanalization was superior to that of patients without recanalization. The procedure was most effective in patients with smaller arterial occlusions: 7 of 10 patients with MCA branch occlusions (M2 to M4) achieved recanalization compared to only 2 of 10 with distal ICA or M1 occlusions, which should be an important issue for the critical evaluation of the efficacy of thrombolytic therapy (TT). Hemorrhagic transformation was observed in 9 patients on CT scan; petechial hemorrhage in 5 and intraparenchymal hematoma formation in 4. Among 4 patients with hematoma formation, clinical deterioration was seen in 3 cases and the angiography at the immediate end of the UK infusion showed recanalization in only one patient. The average dose of UK in patients with parenchymal hematoma formation was higher than that of patients without hemorrhagic transformation (123.3 x 10(4) units vs 101 x 10(4) units). The administration of a large dose of UK, probably more than 100 x 10(4) units, and the absence of immediate recanalization seemed to increase the risk of parenchymal hematoma formation. Despite the effort of investigators, the in-hospital time delay for the TT was significant which was mainly related to the time consuming preparation for angiography especially during night. A more effective system for the earlier intervention of acute ischemic stroke needs to be developed.
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PMID:Intra-carotid thrombolytic therapy in acute ischemic stroke of carotid arterial territory. 800 97

Stroke is one of the leading causes of death in the industrial nations of the world. Up to now, there has been no therapeutic strategy available which has been proven by controlled clinical trials. In the majority of acute stroke patients acute thrombosis contributes to carotid and vertebrobasilar arterial occlusions. Therefore, significant interest has focused on the possible value of fibrinolytic therapy in acute stroke. The principal goal is the rapid lysis of occluding thrombus with a minimum risk of intracranial or systemic hemorrhage. Clinical investigations on thrombolysis in cerebrovascular ischemia included different plasminogen-activators such as urokinase, streptokinase, and tissue plasminogen activator, either given systemically or locally via an intraarterial catheter. The pivotal trials conducted so far have revealed a wide range of recanalization rates, an acceptable safety and, also, encouraging effects on neurologic outcome. Thrombolysis itself carries the risk of intracranial bleeding, a practical limitation of this approach in acute stroke. On the other hand, hemorrhagic infarction and parenchymatous hematoma are natural consequences of thromboembolic stroke, possibly as a result of persistent occlusion of an artery. Hemorrhage following thrombolysis seems to show the same features seen in untreated patients and with an incidence similar to that in untreated patients. Future developments in thrombolysis in acute stroke should include improved early recruitment of patients, evaluation of noninvasive techniques in the pretreatment assessment of patients, the evaluation of advanced invasive techniques for delivery of the thrombolytic agent and assessment of combined treatment strategies. Clinical studies evaluating these strategies are currently under way.
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PMID:Thrombolytic intervention in acute thrombotic and embolic stroke. 832 15

The use of first generation plasminogen activators, urokinase, streptokinase and tissue plasminogen activator has revolutionized thrombolytic therapy for myocardial infarction and ischaemia, and potentially stroke. However, thrombolytic therapy employing these activators is limited by reocclusion of the very arteries being opened, which follows in a small but significant number of patients. The development of second generation plasminogen activators, e.g. staphylokinase and anisoylated plasminogen streptokinase activator complex, has not alleviated the problems encountered with classical plasminogen activators. It is now widely recognized that aberrant platelet aggregation induced primarily by thrombin, rather than plasmin, is one of the major causes of recurrent thrombosis following pharmacologic thrombolysis. Agents that (a) inhibit enzymatic and/or coagulant activity of thrombin, (b) block binding of thrombin to its receptor, and (c) interfere with the generation of thrombin by the prothrombinase complex may compromise haemostasis resulting in haemorrhage. We recently demonstrated that thrombin-induced platelet aggregation is accompanied by cleavage of aggregin, a putative ADP-receptor on the platelet surface, and that these events are indirectly mediated by intracellularly activated calpain expressed on the surface. In this review, we discuss the known mechanisms of thrombin-induced platelet aggregation and suggest relative advantages of potential pharmacological agents, being developed in our laboratory, over those that have been previously developed and tested. These inhibitors selectively prevent aggregation of platelets induced by thrombin by inhibiting calpain expressed on the surface. Moreover, one of these inhibitors which blocks thrombin-induced platelet aggregation does not interfere with other platelet responses mediated by thrombin or platelet aggregation induced by other agonists, such as, ADP, collagen, phorbol myristate acetate and thromboxane A2 mimetics. This selectivity could reduce the chances of perturbing the formation of a haemostatic plug.
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PMID:Reocclusion after thrombolytic therapy: strategies for inhibiting thrombin-induced platelet aggregation. 832 74

A group of 59 patients with stroke due to acute vertebrobasilar or carotid territory occlusion have been treated by local intra-arterial fibrinolysis (LIF). A high recanalisation rate was accomplished with either urokinase or recombinant tissue plasminogen activator (r-TPA). However, with either substance, even if a high dose was used, recanalisation was a time-consuming process which usually took 120 min. A reasonable explanation for the lack of effectiveness of these plasminogen-activating substances might be a deficit of substrate, e.g. plasminogen, in aged thrombus. LIF was capable of improving clinical outcome in acute vertebrobasilar artery occlusion, reducing mortality to 50% in patients fulfilling inclusion criteria. In the carotid territory multiple occlusions had a poor prognosis while good clinical results could be achieved in occlusions of the proximal middle cerebral artery or single branches.
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PMID:Local intra-arterial fibrinolytic therapy in patients with stroke: urokinase versus recombinant tissue plasminogen activator (r-TPA). 843 96

The 4 widely available thrombolytic agents, alteplase (recombinant tissue plasminogen activator, rt-PA), anisoylated plasminogen streptokinase activator complex (APSAC; anistreplase), streptokinase and urokinase have revolutionised the treatment of acute myocardial infarction and are also effective in treating pulmonary embolism and peripheral arterial thrombosis. Therapeutic efficacy of the agents appears to be similar. Choice of a thrombolytic agent depends more on patient characteristics, availability and familiarity with the drug, cost and differences in tolerability. While overall thrombolytic therapy is relatively safe, these 4 agents differ in their tolerability profiles. Streptokinase has the lowest cerebral haemorrhage rate, anistreplase an intermediate and alteplase the highest rate. The incidence of total stroke is also higher with alteplase and anistreplase than with streptokinase, translating to an actual difference in patient risk of 4 extra strokes per 1000 patients treated. Risk of major bleeding is dependent on predisposing factors and seems to be similar with each agent. The incidence of hypotension with alteplase (4.3% in ISIS-3) is less than with streptokinase or anistreplase (6.8 and 7.2%, respectively in ISIS-3). The incidence of major anaphylactic reactions with streptokinase and anistreplase is low (< 1%). Urokinase and alteplase may be preferred for readministration of thrombolytic therapy and anistreplase is the agent of choice where rapid completion of therapy is desirable. The various agents may have different tolerability profiles with different adjunctive therapies and further data are therefore required.
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PMID:Comparative tolerability profiles of thrombolytic agents. A review. 847 Nov 85


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